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3 years ago

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what is the maximum value of the function? explain what the maximum value of this represents in this situation. make sure to inc

lude information about the x-value and y-value in your explanation

2 answers:

Salsk061 [2.6K]3 years ago

6 0

Where’s the picture I need it I order to answer

Step2247 [10]3 years ago

3 0

wowwwww he just roasted youuuuuuuuuu!!!!!

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A cone-shaped paper drinking cup is to be made to hold 36 cm3 of water. find the height and radius of the cup that will use the

NemiM [27]

The formula for volume of cone is:

V = π r^2 h / 3

or

π r^2 h / 3 = 36 cm^3

Simplfying in terms of r:

r^2 = 108 / π h

To find for the smallest amount of paper that can create this cone, we call for the formula for the surface area of cone:

S = π r sqrt (h^2 + r^2)

S = π sqrt(108 / π h) * sqrt(h^2 + 108 / π h)

S = π sqrt(108 / π h) * sqrt[(π h^3 + 108) / π h]

Surface area = sqrt (108) * sqrt[(π h + 108 / h^2)]

<span>Getting the 1st derivative dS / dh then equating to 0 to get the maxima value:</span>

dS/dh = sqrt (108) ((π – 216 / h^3) * [(π h + 108/h^2)^-1/2]

Let dS/dh = 0 so,

π – 216 / h^3 = 0

h^3 = 216 / π

h = 4.10 cm

Calculating for r:

r^2 = 108 / π (4.10)

r = 2.90 cm

Answers:

h = 4.10 cm

<span>r = 2.90 cm</span>

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3 years ago

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Musya8 [376]

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3 years ago

Find all the zeroes of the equation 2x^4-5x^3+53x^2-125x+75=0

Marizza181 [45]

$- 5i \: \: \: 5i \: \: \: \: 1 \: \: \: \: 1.5$

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3 years ago

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The equation for the future value of a deposit earning compound interest is equation <img src="https://tex.z-dn.net/?f=V%28t%29%

scoundrel [369]

Answer:

Given that:

The equation for the future value of a deposit earning compound interest is equation:

$V(t) = P(1+\frac{r}{n})^{nt}$ .....[1]

where,

P = the initial deposit

t = years invested

r = rate at which interest is compounded annually

.

n = number of times the interest is compounded per year

As per the statement:

After 10 years, a $2,000-dollar investment compounded annually has grown to $3600.

⇒P = $2000 and V(t) = $3600

Substitute in [1] we have;

$3600 = 2000(1+\frac{r}{1})^{10 \cdot 1}$

Divide both sides by 2000 we have;

$1.8 = (1+r)^{10}$

Taking log base 10 both sides we have;

$\log_{10} 1.8 =\log_{10} (1+r)^{10}$

⇒ $0.255272505 = 10 \log_{10} 1+r$

Divide both sides by 10 we have;

$0.0255272505 =\log_{10} 1+r$

⇒ $10^{0.0255272505} = 1+r$

Simplify":

$1.06= 1+r$

Subtract 1 from both sides we have;

$0.06=r$

or

r = 0.06 = 6%

Therefore, 6% is the interest rate to the nearest whole-number percent

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What is 13 9/2 ÷ 2 9/12 = ?

anyanavicka [17]

Answer:

6 4/11

Step-by-step explanation:

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